KR100440319B1 - injection nozzle measurement system and the measurement method - Google Patents

Abstract

In measuring the fuel injection nozzle hydraulic flow rate, for the purpose of accurately determining the precise processing state of the injection nozzle by accurately measuring the flow rate passed through the hole of the nozzle at a constant temperature while maintaining a stable pressure of the fuel constant pressure;

It is controlled by a predetermined control signal to move the screw up and down to adjust the amount of movement of the node, and it is possible to measure the hydraulic flow rate according to the amount of movement of the furnace. and; In order to measure the hydraulic flow rate of the fuel injection nozzle is controlled for a predetermined time by a predetermined program according to the user's operation to control the jig means, supply the hydraulic pressure, and the corresponding data so that the user can check the measured data. Control means for outputting a predetermined control signal; Hydraulic pressure supply means which is controlled by a control signal output from the control means and generates and supplies hydraulic pressure at a predetermined pressure to fuel stored in a fuel tank provided at a predetermined position; Hydraulic stabilization means for stabilizing a fuel supplied from the hydraulic pressure supply means to a predetermined reference pressure to supply hydraulic pressure to the jig means; The cylindrical rod is provided with a plurality of measuring sensors in the longitudinal direction of the center of the cylindrical transparent container so as to measure the movement time between the sensor and the sensor according to the flow rate and hydraulic pressure injected by the jig means and output to the control means. Flow measuring means provided with a movable bowl between the provided cylindrical rods; Display means for receiving the hydraulic pressure measurement signal outputted from the control means and displaying the measurement data so that the user can check it; A plurality of switches and setting buttons are provided to set the test time, test temperature, fuel supply amount, etc. so that the hydraulic flow rate of the fuel injection nozzle controlled by the program stored in the control means can be measured. It is provided as an input means for outputting a, it is provided as an input means for outputting the user's setting data, the pressurized fuel can maintain a constant pressure, maintain a constant temperature, the precise flow rate of the fuel passing through the nozzle It is possible to provide a measuring device that can measure, airtightness and easy replacement of the measurement sample, and by developing and manufacturing the above-described measuring device independently, there is an effect of reducing the cost.

Description

Nozzle measuring device and its measuring method

The present invention relates to a nozzle measuring apparatus and a measuring method thereof, and more particularly, to a nozzle measuring apparatus and a measuring method for determining a precise machining state by measuring the hydraulic pressure and flow rate of the fuel injection nozzle.

In general, an injection nozzle is composed of a nozzle holder, a node valve, a nozzle spring, and the like, and injects a high-pressure fuel from an injection pump into a combustion chamber.

It is also equipped with a mechanism for adjusting the nozzle starting pressure and mounted on the cylinder header.

The fuel injection nozzle has one injection hole of about several millimeters in diameter at the center of the nozzle body, a throttle-type nozzle in which fuel is injected when the nozzle valve falls from the seat, and the tip of the nozzle valve is conical instead of axial. Hole-type nozzles and the like.

The spray nozzle is inflated, and a plurality of spray holes are drilled symmetrically with respect to the center of the nozzle.

The injection hole is an example of four injection holes, and is made to obtain the best combustion state depending on the diameter of the injection hole, the direction of the injection hole, and the shape of the combustion chamber.

Therefore, since the hole-type injection nozzle needs to be positioned with respect to the combustion chamber, the nozzle body position is determined and assembled to the nozzle holder.

When the fuel pumped from the injection pump reaches the specified injection start pressure, the nozzle valve is pushed up to inject the fuel into the injection hole.

As described above, in the fuel injection nozzle for injecting fuel through the injection hole, there is no equipment for accurately detecting the injection hole of the fuel injection nozzle.

But. Even if there is a hydraulic flow rate measurement device according to the injection hole of the injection nozzle, each unit of measurement is slightly different for each equipment provided by each company, so a separate conversion measure is required, and the flowmeter used for measuring the flow rate is vane (vane). Indirect measurement, which is calculated using the number of revolutions per second), and expensive equipment are included.

Accordingly, an object of the present invention is to solve the above problems, and in measuring the fuel injection nozzle hydraulic flow rate of a diesel engine, a constant pressurized fuel passes through the hole of the nozzle at a constant temperature while maintaining a stable pressure. It is an object of the present invention to provide a nozzle measuring apparatus and a measuring method thereof capable of accurately determining a precise processing state of a spray nozzle by accurately measuring the flow rate.

The present invention for achieving the above object,

It is controlled by a predetermined control signal to adjust the amount of movement of the node by moving the screw up and down, and it is possible to measure the hydraulic flow rate according to the amount of movement of the furnace. Means;

In order to measure the hydraulic flow rate of the fuel injection nozzle is controlled for a predetermined time by a predetermined program according to the user's operation to control the jig means, supply the hydraulic pressure, and the corresponding data so that the user can check the measured data. Control means for outputting a predetermined control signal;

Hydraulic pressure supply means which is controlled by a control signal output from the control means and generates and supplies hydraulic pressure at a predetermined pressure to fuel stored in a fuel tank provided at a predetermined position;

Hydraulic stabilization means for stabilizing a fuel supplied from the hydraulic pressure supply means to a predetermined reference pressure to supply hydraulic pressure to the jig means;

The cylindrical rod is provided with a plurality of measuring sensors in the longitudinal direction of the center of the cylindrical transparent container so as to measure the movement time between the sensor and the sensor according to the flow rate and hydraulic pressure injected by the jig means and output to the control means. Flow measuring means provided with a movable bowl between the provided cylindrical rods;

Display means for receiving the hydraulic pressure measurement signal outputted from the control means and displaying the measurement data so that the user can check it;

A plurality of switches and setting buttons are provided to set the test time, test temperature, fuel supply amount, etc. so that the hydraulic flow rate of the fuel injection nozzle controlled by the program stored in the control means can be measured. Characterized in that it is provided as an input means for outputting.

Another invention for achieving the above object,

When power is applied to the test equipment, initializing all parameters used and preparing a nozzle test according to a user's door switch operation state;

If it is determined in the step that the nozzle test preparation is completed, determining whether the injection nozzle test condition is satisfied;

If it is determined in the step that the injection nozzle test condition is satisfied, performing a jet nozzle test to output a test result and then determining whether the end nozzle injection test condition is satisfied;

If it is determined that the injection nozzle test termination condition is satisfied in the above step, it is characterized in that it comprises a step of determining whether the continuous test is carried out.

1 is a block diagram of a nozzle measuring apparatus applied to the present invention,

2 is a flowchart illustrating a method for measuring a nozzle according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: jig device 20: control device 30: hydraulic supply device

40: hydraulic stabilization device 50: hydraulic measuring device 60: display device

70: input device

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a nozzle measuring device configuration according to the present invention, the jig device 10 is controlled by a predetermined control signal to move the screw up and down to adjust the amount of movement of the node, the hydraulic flow rate measurement according to the amount of movement of the furnace It is possible to move up and down by pneumatic cylinder to fix the nozzle and seal with the nozzle.

The control device 20 is controlled for a predetermined time by a predetermined program according to the user's operation to measure the hydraulic flow rate of the fuel injection nozzle to control the jig device 10, supply the hydraulic pressure, A predetermined control signal is output so that the user can check the data.

The hydraulic pressure supply device 30 is controlled by a control signal output from the control device 20 and supplies the fuel stored in a fuel tank provided at a predetermined position by generating a hydraulic pressure at a predetermined pressure.

The hydraulic pressure stabilization device 40 stabilizes the fuel pressure supplied from the hydraulic pressure supply device 30 to a predetermined reference pressure to supply hydraulic pressure to the jig device 10.

The flow measuring device 50 is provided with a cylindrical rod equipped with a plurality of measuring sensors in a central longitudinal direction of an arbitrary cylindrical transparent container so as to measure an accurate volume, and is provided with a movable bowl between the provided cylindrical rods. In this case, the movement time between the sensor and the sensor is measured according to the flow rate and hydraulic pressure injected from the jig device 10 and outputted to the control device 20.

The display device 70 receives the hydraulic measurement signal output from the control device 20 and displays the measurement data so that the user can check it.

The input device 80 includes various switches and setting buttons so as to set a test time, a test temperature, a fuel supply amount, etc. to measure the hydraulic flow rate of the fuel injection nozzle controlled by the program stored in the control device 20. It is provided, and outputs the setting data of the user to the control device 20.

A nozzle measuring method having the above-described configuration will be described with reference to FIG. 2.

When the user applies power to the test apparatus in order to measure whether the fuel injection nozzle of the diesel engine is manufactured correctly, the control apparatus 20 of the test apparatus initializes all the variables used and is stored in the memory. The fuel injection nozzle hydraulic flow rate measurement program is performed (S100).

The control device 20 is provided with various operation switches for conducting a test, and a control processor (not shown) provided with a control processor and a memory for executing a program set to output a control signal according to various switch operations of a user And a plurality of electric devices to be controlled in synchronization with the control signal output from the control unit and to control automatically by a plurality of relays and magnets to conduct and cut a predetermined voltage and current. It is.

When the user prepares the test by operating various switches and the like provided in the control apparatus 20 for testing the injection nozzle, the user first operates the fuel injection pressure setting switch and the fuel temperature setting switch provided in the test apparatus. After setting the fuel injection pressure (for example 100 bar) and the fuel temperature (for example 40 ℃), the control device for opening the door of the jig device 10 provided to see the inside from the outside for safety during the test The jig device 10 provided at 20 performs a door open switch operation (105).

When the door of the jig device 10 by the door opening operation of the jig device 10 is opened, the user can control the fuel injection nozzle by moving a screw up and down to adjust the amount of the node movement by controlling a fuel injection nozzle, The hydraulic flow rate can be measured according to the movement amount of the jig, and it moves up and down by the pneumatic cylinder to fix the nozzle, insert it into the jig device 10 which is sealed with the nozzle, and then perform the jig device 10 door closing switch operation. The device 10 closes the door (S110, S115).

The door of the jig device 10 is operated by pneumatic pressure, and if an object exists in the middle of the door, the closing operation is not performed for safety.

Thereafter, the control device 20 accurately determines whether the door of the jig device 10 is actually closed according to the user's operation of the door closing switch of the jig device 10, and when the door is determined to be closed, the user displays the completion of the door closing (S120). ).

If it is determined in the above that the door of the jig device 10 is not closed, the control device 20 continues to control the jig device 10 door closing until the jig device door is closed, the jig device 10 door in the above If it is determined that the closing, the control device 20 outputs a predetermined control signal for moving the screw of the jig according to the switch operation for fixing the injection nozzle of the user to fix the injection nozzle (S125).

When the injection nozzle is fixed in the above, the control device 20 generates a hydraulic pressure having a predetermined pressure in accordance with the operation of the hydraulic pump operation switch of the user to output the hydraulic control device 30 operation control signal for supplying fuel do.

The hydraulic pressure supply device 30 operates a hydraulic pump (not shown) to supply fuel with hydraulic pressure having a predetermined pressure in synchronization with an operation control signal output from the control device 20.

Fuel supplied at a predetermined pressure from the hydraulic pressure supply device 30 is supplied to a hydraulic pressure stabilizer (Accumulator 40).

The hydraulic stabilization device 40 is supplied to the jig device 10 by the hydraulic pressure (about 100 bar) set by the user, the control device 20 is the pressure of the fuel supplied to the jig device 10 is set by the user It is determined whether the test conditions for determining whether the fuel pressure (eg, 100 bar) and the fuel temperature (eg, 40 ° C.) are reached (S135).

When the user operates the heater driving switch (not shown) provided in the input device 80 to rapidly increase the fuel temperature, the control device 20 is a heater (not shown) provided in the predetermined position of the jig device 10. ), The temperature of the fuel can be increased rapidly.

When it is determined that the test conditions are satisfied in the above, the control device 20 injects the fuel supplied to the jig device 10 through the injection nozzle and at the same time measures the flow rate of the injected fuel. Outputs a predetermined control signal for

Thus, the flow rate measuring device 50 is moved between the sensor and the sensor of the beret (not shown) in accordance with the flow rate and the hydraulic pressure injected from the jig device 10 in synchronization with the control signal output from the control device 20 The time is measured and a predetermined signal is output to the control device 20.

Therefore, the control device 20 receives the output signal measured and applied by the flow rate measuring device 50 and measures the flow rate and the hydraulic pressure against the test time on an arbitrary display device (not shown) so that the user can see the test result. It is displayed (S140).

The display may be output through a display device provided in the test equipment or a display device provided separately.

At this time, the user determines the processing state of the fuel injection nozzle according to the fuel amount and the hydraulic pressure displayed by the display device (not shown).

Thereafter, the control device 20 determines whether the user's test termination operation is performed, and when it is determined that the user's test termination operation is performed, the control device 20 measures the flow rate of the flow introduced into the flow rate measuring device 50, which is not shown in the drawing. Discharge to the storage tank (S145, S150).

Subsequently, the control device 20 receives an output signal of the input device 80 related to retesting according to the switch operation of the user and whether or not another jetting nozzle test is performed, and whether or not the user retests the test or performs another jetting nozzle test. It is determined (S155).

If it is determined that the user has made an operation for retesting or performing another injection nozzle test, the control apparatus 20 returns to the initial test step (S100).

However, if the test end switch operation of the user is determined in the above, the control device 20 ends all the tests, and performs the control according to the user's arbitrary switch operation.

As described above, in the present invention, when measuring the hydraulic flow rate of the fuel injection nozzle, the precisely pressurized state of the injection nozzle is accurately measured by accurately measuring the flow rate passing through the hole of the nozzle at a constant temperature while maintaining a stable pressure. As it is possible to accurately determine the pressure of the pressurized fuel can maintain a constant pressure, maintain a constant temperature, can measure the exact flow rate of the fuel passing through the nozzle, the air tightness of the sample and easy to replace the measuring device It is possible to provide, and by independently developing and manufacturing the above-described measuring device, there is an effect that can reduce the cost.

Claims (3)

It is controlled by a predetermined control signal to move the screw up and down to adjust the amount of movement of the node, and it is possible to measure the hydraulic flow rate according to the amount of movement of the furnace. and; In order to measure the hydraulic flow rate of the fuel injection nozzle is controlled for a predetermined time by a predetermined program according to the user's operation to control the jig means, supply the hydraulic pressure, and the corresponding data so that the user can check the measured data. Control means for outputting a predetermined control signal; Hydraulic pressure supply means which is controlled by a control signal output from the control means and generates and supplies hydraulic pressure at a predetermined pressure to fuel stored in a fuel tank provided at a predetermined position; Hydraulic stabilization means for stabilizing a fuel supplied from the hydraulic pressure supply means to a predetermined reference pressure to supply hydraulic pressure to the jig means; The cylindrical rod is provided with a plurality of measuring sensors in the longitudinal direction of the center of the cylindrical transparent container so as to measure the movement time between the sensor and the sensor according to the flow rate and hydraulic pressure injected by the jig means and output to the control means. Flow measuring means provided with a movable bowl between the provided cylindrical rods; Display means for receiving the hydraulic pressure measurement signal outputted from the control means and displaying the measurement data so that the user can check it; A plurality of switches and setting buttons are provided to set the test time, test temperature, fuel supply amount, etc. so that the hydraulic flow rate of the fuel injection nozzle controlled by the program stored in the control means can be measured. Nozzle measuring device, characterized in that provided as an input means for outputting. When power is applied to the test equipment, initializing all parameters used and preparing a nozzle test according to a user's door switch operation state; If it is determined in the step that the nozzle test preparation is completed, determining whether the injection nozzle test condition is satisfied; If it is determined in the step that the injection nozzle test condition is satisfied, performing a jet nozzle test to output a test result and then determining whether the end nozzle injection test condition is satisfied; If it is determined in the step that the injection nozzle test termination condition is satisfied, the nozzle measuring method comprising the step of determining whether to perform a continuous test. 3. The nozzle measuring method according to claim 2, wherein the injection nozzle test condition is a condition of injecting fuel into the injection nozzle when the fuel pressure and the fuel temperature supplied to the jig apparatus reach the pressure and temperature set before the test by the user.